JP2009289103A - Information processing system, information processing apparatus, and computer program - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To continuously display contents in a Web system including multiplexed Web servers by reducing display of an error screen on a Web browser of a Web client device. <P>SOLUTION: In the information processing system, a Web system 1 includes a plurality of Web server devices 210, and a Web client device 100 having a Web browser. The Web client device includes a monitoring means 120 which monitors operating conditions of the plurality of Web server devices by performing asynchronous communication with the plurality of Web server devices; and a display control means 130 which acquires, when it is detected by the monitoring means that the operation state of the standby Web server device is switched from standby to operation, a content related to processing passed from the main Web server to the standby Web server from the standby Web server device, and displays it in an area to be displayed on the Web browser. <P>COPYRIGHT: (C)2010,JPO&INPIT

Description

  The present invention constitutes an information processing system such as a web system including a multiplexed web server device and a web client device connected to the web server device via a network, and such an information processing system. The present invention relates to the technical fields of information processing apparatuses such as client apparatuses and server apparatuses, and computer programs.

  Hereinafter, a Web system will be specifically described as an example, but the present invention can be applied to other systems.

  In this type of Web system, a Web client device having a Web browser is connected to the Web server device via a network such as the Internet. For example, the Web client device transmits an HTTP (Hypertext Transfer Protocol) request to the Web server device, and displays HTML (Hypertext Markup Language) content returned from the Web server device in response to the request on the Web browser.

On the other hand, in this type of Web system, for high reliability, a Web server including a primary or active Web server device to which different IP (Internet Protocol) addresses are assigned and a standby or secondary Web server device. Multiplexing of devices may be performed (see, for example, Patent Documents 1 and 2).
JP 2005-135125 A JP 2006-39662 A

  However, in the Web system in which the Web server devices are multiplexed as described above, for example, when a failure occurs in the main Web server device, the processing from the main Web server device to the standby Web server device is taken over. Since the Web client device cannot obtain a response from the Web server device during the period until completion, there is a possibility that an error screen, that is, a screen indicating that the page cannot be displayed may be displayed on the Web browser. is there. Furthermore, there is a technical problem that this error screen continues to be displayed as it is unless the user performs an operation such as clicking a button or a link on the Web browser in the Web client device.

  For example, the present invention is an information processing system in which server devices are multiplexed, and an error screen is displayed on the client device when a failure occurs in the primary server device. It is an object of the present invention to provide an information processing system that can reduce display and continuously display content, an information processing apparatus that constitutes such an information processing system, and a computer program.

  In one aspect of the present invention, an information processing system includes a server device including a main server device and a server device having at least one standby server device, and a client device connected to the server device via a network. The client device includes: monitoring means for asynchronously monitoring the operation state of each of the plurality of server devices with each of the plurality of server devices; and the main server device by the monitoring means. When the operation state of the standby server device is detected, the content is acquired from the primary server device and displayed in an area to be displayed on the screen, while the monitoring server operates the standby server device. When it is detected that the state has been switched from standby to operation, the processing taken over from the primary server device to the standby server device The contents of acquired from the standby server apparatus, and display control means for displaying on the screen.

  In another aspect of the present invention, an information processing apparatus connected to a plurality of server apparatuses via a network is provided corresponding to each of the plurality of server apparatuses, and monitors an operation state of the corresponding server apparatus. When it is determined that an arbitrary server device is operating among the monitoring unit and the plurality of server devices, the content is acquired from the server device and displayed on the display screen, and the server device that has been on standby And a display control means for acquiring and displaying content from the server device whose operating state has been switched to operating when the operating state has been switched during operation.

  According to the information processing system, the information processing apparatus, and the computer program described above, it is possible to reduce the display of an error screen on the client device when processing is taken over from the primary server device to the standby server device, and to continue the content. Can be displayed automatically.

  In particular, according to the present invention, it is possible to smoothly display the content related to the processing handed over from the primary server device to the standby server device. Therefore, for example, it is possible to avoid a situation in which an error screen is displayed because a response cannot be obtained from the primary server device. Alternatively, for example, even when an error screen is displayed because a response cannot be obtained from the primary server device, a situation in which the error screen continues to be displayed can be avoided. Thereby, the user of the client device can continuously use the displayed content without recognizing that a failure has occurred in the primary server device.

  The operation and other advantages of the present invention will become more apparent from the best mode for carrying out the invention described below.

  Hereinafter, embodiments of the present invention will be described with reference to the drawings.

  The Web system according to the present embodiment will be described with reference to FIGS.

  FIG. 1 is a block diagram showing the overall configuration of the Web system according to the present embodiment.

  In FIG. 1, a Web system 1 according to this embodiment includes a client 100 and a Web server system 200 connected to the client 100 via a network 500 such as the Internet. Note that the Web system 1 may include two or more clients 100.

  The client 100 is an example of a “Web client device”, and is configured by a computer on which the Web browser 110 operates. The client 100 is configured to be able to display content provided from the Web server system 200 on a screen (not shown) by the function of the Web browser 110.

  The Web server system 200 includes a plurality of Web servers 210, n + 1 units (n is an integer of 0 or more) in the example of FIG. 1, and the Web servers 210 are multiplexed. The plurality of Web servers 210- # n is an example of “a plurality of Web server apparatuses”, and each Web server 201- # n is configured by a computer capable of providing a service to the client 100. In the present embodiment, the plurality of Web servers 210- # n include one Web server 210 set as the primary Web server, that is, the Web server 210- # 0, and N set as the standby Web server (however, , N is an integer greater than or equal to 1) Web servers 210, that is, Web servers 210- # 1,..., And Web servers 210- # N (hereinafter, the whole or a part of the standby Web server is shown) ("Web server 210- # N"). When a failure occurs in the Web server 210- # n that operates as the main Web server, the Web server system 200 uses the CGI (Common Gateway) of the Web server 210- # n that operates as the main Web server. Interface) processing related to the program and authentication processing for authenticating the user are taken over by one of the Web servers 210- # N operating as a standby Web server. Each of the Web servers 210- # n constituting the Web server system 200 receives an “Active state” indicating that it is currently operating or an “Standby state” indicating that it is currently waiting from the client 100 as its operation state. The client 100 can be notified in response to the request. That is, a signal indicating “Active state” is transmitted to the client 100 from the Web server 210-# 0 operating as the main Web server in response to a request from the client 100. Each of the Web servers 210-# N operating as standby Web servers is configured to transmit a signal indicating “Standby state” to the client 100 in response to a request from the client 100. .

  Note that, in the initial state, the operation state of the Web server 210- # 0 set as the primary Web server is “Active state”, and the Web servers 210- # 1 to 210- # set as the standby Web server. The operation state of N is “Standby state”.

  In the present embodiment, the Web server 210- # 0 set as the primary Web server among the plurality of Web servers 210- # n includes the connection information transmission unit 220. When the Web server 210- # 0 is accessed from the client 100, the connection information transmission unit 220 transmits connection information including URLs of other Web servers, that is, Web servers 210- # 1 to 210- # N, to the client. To 100. Therefore, the client 100 can communicate asynchronously with each of the plurality of Web servers 210, that is, the Web servers 210- # 0 to 210- # N, by the monitoring unit 120 described later. The operating state of the Web server 210- # n can be monitored.

  Next, the configuration of the client according to the present embodiment will be described in detail with reference to FIG. 2 in addition to FIG.

  As shown in FIG. 1, the client 100 includes a monitoring unit 120 and a display control unit 130.

  The monitoring unit 120 includes a plurality of Web server monitoring units 121- # n provided corresponding to each of the plurality of Web servers 210- # n. In the present embodiment, the plurality of Web server monitoring units 121 includes (N + 1) Web servers 210, that is, Web server monitoring units 121- provided corresponding to the Web servers 210- # 0 to 210- # N, respectively. # 0, Web server monitoring unit 121- # 1,..., Web server monitoring unit 121- # N. In the present embodiment, each Web server monitoring unit 121- # n is configured by a program described in a script language that runs on the Web browser 110, such as JavaScript (registered trademark).

  Each Web server monitoring unit 121- # n monitors the operation state of the corresponding Web server 210- # n by performing asynchronous communication with the corresponding Web server 210- # n using, for example, XMLHttprequest in Ajax. Is possible. That is, the Web server monitoring unit 121- # 0 is configured to be able to monitor the operation state of the Web server 210- # 0, and the Web server monitoring unit 121- # 1 is configured to monitor the operation state of the Web server 210- # 1. The Web server monitoring unit 121- # N is configured to be able to monitor the operation state of the Web server 210- # N. For example, the Web server monitoring unit 121- # k (k = 0, 1,..., N) uses, for example, XML Httprequest or the like to issue a request for requesting an operation state notification of the corresponding Web server for each predetermined period. It transmits to Web server 210- # k. Accordingly, the Web server monitoring unit 121- # k can receive a signal indicating the “Active state” or the “Standby state” as the operation state from the Web server 210- # k.

  Furthermore, each Web server monitoring unit 121- # n performs asynchronous communication using the corresponding Web server 210- # n and, for example, XMLHttprequest, etc., with respect to the communication state between the corresponding Web server 210- # n and the client 100. It is configured to be able to monitor by performing. For example, the Web server monitoring unit 121- # k (k = 0, 1,..., N) operates the Web server 210- # k at predetermined intervals or periodically using, for example, XMLHttprequest. A request for requesting a state is transmitted to the Web server 210- # k. When the Web server monitoring unit 121- # k can receive a signal indicating the operation state from the Web server 210- # k, the Web server monitoring unit 121- # k detects that the communication state of the Web server 210- # k is “communicable”. To do. On the other hand, if a signal indicating the operation state cannot be received from the Web server 210- # k after a request for the operation state has been transmitted and a certain period of time has elapsed, the communication of the Web server 210- # k It is detected that the state is “communication impossible”.

  The display control unit 130 is configured to be able to acquire content from the Web server system 200 and associate and display the acquired content with a content display frame 320 described later with reference to FIG. . More specifically, when the monitoring unit 120 detects that the operation state of the Web server 210- # 0 set as the primary Web server is the “Active state”, the display control unit 130 The content is acquired from the server 210-# 0, and the acquired content is displayed on the content display frame 320 on the Web browser 110. Furthermore, when the monitoring unit 120 detects that the operation state of any of the Web servers 210- # 1 to 210- # N set as the standby Web servers has been switched from the “Standby state” to the “Active state”. In this case, the display control unit 130 acquires the content related to the processing taken over from the Web server 210- # 0 from the Web server 210- # N whose operation state has been switched from the “Standby state” to the “Active state”. The acquired content is displayed on the content display frame 320. The display control unit 130 is configured by a program described in a script language that operates on the Web browser 110, such as JavaScript (registered trademark).

  FIG. 2 is a conceptual diagram conceptually showing a frame configuration in the Web browser of the client according to the present embodiment.

  As shown in FIG. 2, a TOP frame 300 displayed on the Web browser 110 as a user interface (UI) of the client 100 is divided into (N + 2) frames, and (N + 1) Web pages are displayed. The server monitoring frame 310 and one content display frame 320 are formed. Note that the number of Web server monitoring frames 310 and content display frames 320 set on the TOP frame 300 is not limited to the example shown in FIG. 2, but (N + 1) Web server monitoring frames. It may be divided into (N + 3) or more frames including the frame 310 and one content display frame 320.

  (N + 1) Web server monitoring frames 310, that is, the Web server monitoring frame 310- # 0, the Web server monitoring frame 310- # 1,..., And the Web server monitoring frame 310- # N shown in FIG. Then, the (N + 1) Web server monitoring units 121- # n described above operate. In other words, the Web server monitoring frame 310- # 0 is configured to operate the Web server monitoring unit 121- # 0, and the Web server monitoring frame 310- # 1 is configured to operate. In the Web server monitoring frame 310- # N, the Web server monitoring unit 121- # N is configured to operate. That is, a corresponding Web server monitoring unit 121- # n configured by a script language such as JavaScript (registered trademark) is assigned to each Web server monitoring frame 310- # n. As described above, since the plurality of Web server monitoring units 121- # n operate on different Web server monitoring frames 310- # n, for example, even if the plurality of Web servers 210 belong to different network domains, Each of the Web server monitoring units 121- # n can reliably communicate with the corresponding Web server 210- # n.

  Further, in this embodiment, each Web server monitoring frame 310- # n is configured as a frame having a height of “0” so that the user cannot visually recognize it. As a result, the Web server monitoring unit 121- # n allows the Web server 210- # n to recognize that the Web server monitoring unit 121- # n is operating in the Web server monitoring frame 310- # n. n can be monitored. Each web server monitoring frame 310- # n may be configured as a frame having a predetermined height so that the user can visually recognize the frame. In this case, it becomes possible for the user to recognize the operation state or communication state of the Web server 210- # n monitored by the Web server monitoring unit 121- # n.

  The content display frame 320 is a frame for displaying the content acquired from the Web server system 200 by the display control unit 130.

  Next, an example of the operation of the Web system configured as described above will be described with reference to FIG.

  FIG. 3 is a flowchart showing an example of the operation of the Web system according to the present embodiment.

  In FIG. 3, when the user operates the content displayed in the content display frame 320 described above with reference to FIG. 2, for example, when the user performs an operation such as clicking a button or a link displayed as the content. 2 shows an example of the operation of the Web system 1 in FIG.

  In FIG. 3, when the user operates the content displayed in the content display frame 320 (S110), first, one of the Web server monitoring units 121- # n is called (S120). In the example of FIG. 3, the Web server monitoring unit 121- # 0 is called first. That is, the Web server monitoring unit 121- # 0 configured by a program described in a script language such as JavaScript (registered trademark) assigned to the Web server monitoring frame 310- # 0 in accordance with a user operation. Is called. Each time the “loop” process shown in FIG. 3 is executed once, the Web server monitoring unit 121- # n + 1 is sequentially called. In addition, it is determined that any of the Web server monitoring units 121- # 0 to 121- # N has been able to communicate with any of the Web servers 210- # 0 to 210- # N by the process related to S170 described later. 3 is repeated until the Web server 121- # n + 1 is sequentially called.

  Next, whether or not communication with the corresponding Web server 210- # n is possible is determined by the Web server monitoring unit 121- # n (S130). That is, the communication state of the Web server 210- # n, that is, “communication enabled” or “communication disabled” is detected by the Web server monitoring unit 121- # n.

  If the web server monitoring unit 121- # n determines that communication with the web server 210- # n is not possible (S130: NO), the content is loaded from the web server 210- # n + 1 into the content display frame 320. For this purpose (S180). In this case, the process returns to the processing site S120, and the Web server monitoring unit 121- # n + 1 is called (S120). That is, when the Web server monitoring unit 121- # n detects that the Web server 210- # n cannot communicate with the Web server 210- # n, in other words, a failure has occurred in the Web server 210- # n. The Web server monitoring unit 121- # n + 1 is called to determine whether or not content can be acquired from the Web server 210- # n + 1 set as the secondary Web server (S120).

  On the other hand, if the Web server monitoring unit 121- # n determines that communication with the Web server 210- # n is possible (S130: YES), whether the Web server 210- # n is in the “Active state” or not. Is determined (S140). That is, the Web server monitoring unit 121- # n detects whether the operation state of the Web server 210- # n is “Active state” or “Standby state”.

  When it is determined that the Web server 210- # n is not in the “Active state” (S140: NO), it is determined whether or not it is a retry over (S160). That is, in S140, clarify the state in which the Web server 210- # n is not in the “Active state” for a predetermined period (→ from which point in time the “predetermined period”. In addition, how to determine if possible It is determined by the Web server monitoring unit 121- # n whether or not it has been continued. When it is determined that the retry is not over (S160: NO), the processing according to S120 is performed again. On the other hand, if it is determined that the retry is over (S160: YES), processing for loading content from the Web server 210- # n + 1 to the content display frame 320 is performed (S180), and the Web server monitoring unit 210- # is executed. n + 1 is called (S120). That is, the Web server monitoring unit 121- # indicates that the operation state of the Web server 210- # n is not “Active” for a predetermined period of time, in other words, that the Web server 210- # n has a failure. If it is detected by n, it corresponds to Web server 210- # n + 1 in order to determine whether it is possible to acquire content from Web server 210- # n + 1 set as a standby server The Web server monitoring unit 121- # n + 1 to be called is called (S120).

  On the other hand, when it is determined that the Web server 210- # n is in the “Active state” (S140: YES), an HTTP request is transmitted from the client 100 to the Web server 210- # n (S150). In other words, the client 100 transmits an HTTP request according to a user's operation on the content displayed in the content display frame 320 to the Web server 210- # n whose operation state is “Active state”.

  Next, as a result of the HTTP request transmission to the Web server 210- # n, it is determined whether or not the client 100 can communicate with the Web server 210- # n (S170). That is, the web server monitoring unit 121- # n determines whether or not the content as a response to the HTTP request according to the operation by the user has been received from the web server 210- # n. When the client 100 is able to communicate with the Web server 210- # n (S170: YES), the content received from the Web server 210- # n is displayed on the content display frame 320 by the display control unit 130, whereby the content is displayed. The operation for the user's operation on the content displayed on the display frame 320 ends.

  On the other hand, if the client 100 cannot communicate with the Web server 210- # n (S170: NO), in order to load the content display frame 320 from the Web server 210- # n + 1 (S180) Is returned to S120, and the Web server monitoring unit 121- # n + 1 is called (S120). That is, when the Web server monitoring unit 121- # n detects that the client 100 cannot communicate with the Web server 210- # n, in other words, the Web server 210- # n has a failure. In order to determine whether or not the content can be acquired from the Web server 210- # n + 1, the Web server monitoring unit 121- # n + 1 is called.

  As described above, when the user operates the content displayed in the content display frame 320, the Web server monitoring unit 121 until the client 100 can communicate with any of the Web servers 120-# 0 to 210-# N. -# 0-121- # N are called sequentially. Accordingly, the client 100 can receive content from the Web server 210- # N whose operation state is “Active” among the (N + 1) Web servers 210-n. Therefore, for example, when a failure occurs in the Web server 210- # 0 set as the primary Web server, among the N Web servers 210 set as standby Web servers, that is, the Web servers # 1 to #N The content related to the processing taken over by any one of the Web servers can be acquired from the Web server that has taken over the processing and displayed on the content display frame 320. That is, the content related to the processing taken over from the Web server 210- # 0 set as the primary Web server to the Web server 210- # N set as the standby Web server is smoothly displayed on the client 100. Can do. In other words, the display in the content display frame 320 can be updated with the content acquired from the Web server 210- # N, which has been taken over, without reloading by the user, that is, without re-reading or updating operation. Therefore, for example, it is possible to avoid a situation in which an error screen is displayed on the Web browser 110 because a response cannot be obtained from the Web server 210- # 0 set as the main Web server. Alternatively, when an error screen is displayed on the Web browser 110 because a response cannot be obtained from the Web server 210- # 0 set as the primary Web server, the error screen is displayed on the Web browser 110. It is possible to avoid the situation where it is continuously displayed. Thereby, for example, the user of the client 100 can display the content displayed on the Web browser 110 with little or no recognition that a failure has occurred in the Web server 210- # 0 set as the primary Web server. It can be used continuously. Further, the user authentication information is transferred from the Web server 210- # 0 set as the primary Web server to the Web server 210- # N set as the standby Web server, so that the user of the client 100 can process Since the content displayed on the Web browser 110 can be continuously used without an operation for user authentication in the Web server 210- # N taking over the above, it is very advantageous in practice.

  Next, another example of the operation of the Web system configured as described above will be described with reference to FIG.

  FIG. 4 is a flowchart showing another example of the operation of the Web system according to the present embodiment.

  FIG. 4 shows an example of the operation of the Web system during a period when the user does not operate the content displayed in the content display frame 320 described above with reference to FIG.

  In FIG. 4, the Web server monitoring unit 121- # n (n = 1,..., N) transmits an HTTP request to the corresponding Web server 210- # n (S210). In other words, each Web server monitoring unit 121- # n uses, for example, XMLHttprequest in Ajax, etc. to operate the Web server 210- # n on the Web server 210- # n other than the corresponding primary Web server 210- # 0. A request for detecting the status and the communication status is transmitted.

  Next, it is determined by the corresponding Web server monitoring unit 121- # n whether or not the operating state of the Web server 210- # N has changed from the “Standby state” to the “Active state” (S220). In other words, the Web server monitoring unit 121- # n determines whether or not the processing has been taken over by the Web server 210- # N from the Web server 210- # 0 set as the primary Web server.

  When it is determined that the operation state of the Web server 210- # n has not changed from the “Standby state” to the “Active state”, for example, the operation state of the Web server 210- # n set as the standby Web server is “ When it is detected that the “Standby state” remains, or when it is detected that the operation state of the Web server 210- # 0 set as the primary Web server remains “Active state” (S220). : NO), the Web server monitoring unit 121- # n stops the operation for a predetermined period, that is, sleeps until the next monitoring time to be monitored (S240), and then transmits the HTTP request to the Web server 210- # n again. (S210). That is, the Web server monitoring unit 112- # n monitors the operation state of the corresponding Web server 210- # n by performing asynchronous communication.

  On the other hand, when it is determined that the operation state of the Web server 210- # n has changed from the “Standby state” to the “Active state” (S220: NO), the Web server in the “Active state” is displayed in the content display frame 320. The content is loaded from 210- # n (230: YES). That is, when the Web server monitoring unit 121- # n detects that the Web server 210- # n has taken over the processing from the Web server 210- # 0 set as the primary Web server, the display control is performed. The unit 130 acquires content from the Web server 210- # n that has taken over the processing from the Web server 210- # 0, and displays the content on the content display frame 320.

  As described above, each Web server monitoring unit 121- # n performs asynchronous communication between the corresponding Web server 210- # n and the operation state and communication state of the corresponding Web server 210- # n. Monitoring. Further, when the Web server monitoring unit 210- # N determines that the operation state of the Web server 210- # N has changed from the “Standby state” to the “Active state”, the display control unit 130 Acquires the content from the Web server 210- # N that has changed from the “Standby state” to the “Active state”, and displays it on the content display frame 320. Therefore, it is possible to smoothly display the content related to the processing taken over by the standby Web server 210- # N. Therefore, it is possible to avoid a situation in which an error screen is displayed on the Web browser 110 because a response cannot be obtained from the main Web server 210- # 0. Alternatively, even when an error screen is displayed on the Web browser 110 because a response cannot be obtained from the main Web server 210- # 0, the error screen continues to be displayed on the Web browser 110. Can be avoided. Thereby, for example, the user of the client 100 continues to use the content displayed on the Web browser 110 with little or no recognition that a failure has occurred in the primary Web server 210- # 0. Can do.

  As a modification of the present embodiment, when a failure occurs in the main Web server, the main Web server is displayed in the content display frame 320 during a period until processing is taken over from the main Web server to the standby Web server. The display control unit 130 may display a display indicating that the process is in the process of being taken over from the standby Web server. That is, for example, in FIG. 4, a request for detecting the operating state and communication state of the corresponding Web server 210- # n is transmitted from each Web server monitoring unit 121- # n to the corresponding Web server 210- # n. As a result, the communication state between the client 100 and the primary Web server 210- # 0 is “communication impossible”, and all of the standby Web servers 210- # n (Web servers # 1 to #N) When the monitoring unit 120 detects that the operation state is “Standby state”, for example, “Please wait for a while because the process is transferred to the standby server”. Display so that a message indicating that processing is in the process of being taken over to the related Web server is displayed on the content display frame 320 It may constitute a control section 130. In this case, it is possible to make the user of the client 100 recognize that the process is being taken over from the primary Web server 210- # 0 to the standby Web server 210- # N. Therefore, it is possible to reduce or eliminate the feeling of anxiety such as “I don't know what is happening” for the client 100 user.

  As described above, according to the Web system according to the present embodiment, when processing is taken over from the main Web server to the standby Web server, it is possible to reduce the display of an error screen on the client and continue the content. Can be displayed automatically.

  The present invention is not limited to the above-described embodiment, and can be changed as appropriate without departing from the spirit or concept of the invention that can be read from the claims and the entire specification. Web clients, Web servers, and computer programs are also included in the technical scope of the present invention.

Regarding the above embodiment, the following additional notes are disclosed.
(Appendix 1)
A server device including a main server device and a server device having at least one standby server device; and a client device connected to the server device via a network;
The client device is
Monitoring means for asynchronously monitoring the operating state of each of the plurality of server devices with each of the plurality of server devices;
If the monitoring means detects that the operating state of the primary server device is in operation, the content is acquired from the primary server device and displayed in the area to be displayed on the screen, while the monitoring When it is detected by the means that the operating state of the standby server device has been switched from standby to active, content related to the processing taken over from the primary server device to the standby server device is stored in the standby server. An information processing system comprising: a display control unit that acquires the information from a system server device and displays the information on the screen.
(Appendix 2)
The monitoring unit asynchronously monitors a communication state between the client device and each of the plurality of server devices, in addition to an operation state of a corresponding server device,
In the case where the display control unit detects that the monitoring unit cannot communicate between the client device and the primary server device and that all of the standby server devices are on standby. The information processing system according to appendix 1, wherein a display indicating that processing is in the process of being taken over from the primary server device to the standby server device is displayed on the screen.
(Appendix 3)
The monitoring means is assigned to one of a plurality of frames set one by one on the screen corresponding to the plurality of server devices, and monitors a plurality of servers that respectively operate the corresponding server devices. The information processing system according to appendix 1 or 2, further comprising a monitoring unit.
(Appendix 4)
An information processing apparatus connected to a plurality of server apparatuses via a network,
Monitoring means that is provided corresponding to each of the plurality of server devices and that monitors an operating state of the corresponding server device;
When any server device among the plurality of server devices is operating by the monitoring unit, the content is acquired from the server device and displayed on the display screen, and the monitoring unit is on standby. When the operating state of the server device is switched during operation, the server device includes display control means for acquiring the content from the server device whose operating state is switched during operation and displaying the acquired content. Information processing device.
(Appendix 5)
An information processing apparatus connected to a client apparatus via a network,
An information processing apparatus comprising: connection information transmitting means for transmitting connection information of each of the plurality of server apparatuses to the client apparatus.
(Appendix 6)
Information processing comprising a plurality of server devices including a main server device and at least one standby server device taking over processing from the main server device, and a client device connected to the plurality of server devices via a network A computer program for controlling a computer provided in the client device in a system,
The computer,
Monitoring means for monitoring the operating state of each of the plurality of server devices by asynchronous communication with each of the plurality of server devices;
When the monitoring unit detects that the operating state of the primary server device is in operation, it acquires content from the primary server device and displays the acquired content on the screen of the client When the monitoring unit detects that the operating state of the standby server device has been switched during operation, the standby server device has taken over from the main server device. Display control means for acquiring content related to processing from the standby server device, and displaying the acquired content;
A computer program that functions as at least a part of the program.

It is a block diagram which shows the whole structure of the Web system which concerns on this embodiment. It is a conceptual diagram which shows notionally the structure of the flame | frame in the web browser of the client which concerns on this embodiment. It is a flowchart which shows an example of operation | movement of the Web system which concerns on this embodiment. It is a flowchart which shows the other example of operation | movement of the Web system which concerns on this embodiment.

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 Web system 100 Client 110 Web browser 120 Monitoring part 121 Web server monitoring part 130 Display control part 210 Web server 220 Connection information transmission part 310 Web server monitoring frame 320 Content display frame 500 Network

Claims (5)

A server device including a main server device and a server device having at least one standby server device; and a client device connected to the server device via a network;
The client device is
Monitoring means for asynchronously monitoring the operating state of each of the plurality of server devices with each of the plurality of server devices;
If the monitoring means detects that the operating state of the primary server device is in operation, the content is acquired from the primary server device and displayed in the area to be displayed on the screen, while the monitoring When it is detected by the means that the operating state of the standby server device has been switched from standby to active, content related to the processing taken over from the primary server device to the standby server device is stored in the standby server. An information processing system comprising: a display control unit that acquires the information from a system server device and displays the information on the screen. The monitoring unit asynchronously monitors a communication state between the client device and each of the plurality of server devices, in addition to an operation state of a corresponding server device,
In the case where the display control unit detects that the monitoring unit cannot communicate between the client device and the primary server device and that all of the standby server devices are on standby. 2. The information processing system according to claim 1, wherein a display indicating that processing is being taken over from the primary server device to the standby server device is displayed on the screen.   The monitoring means is assigned to one of a plurality of frames set one by one on the screen corresponding to the plurality of server devices, and monitors a plurality of servers that respectively operate the corresponding server devices. The information processing system according to claim 1, further comprising a monitoring unit. An information processing apparatus connected to a plurality of server apparatuses via a network,
Monitoring means that is provided corresponding to each of the plurality of server devices and that monitors an operating state of the corresponding server device;
When it is determined by the monitoring means that an arbitrary server device is operating among the plurality of server devices, the content is acquired from the server device and displayed on the display screen, and the monitoring means Display control means for acquiring the content from the server device whose operation state has been switched to operation and displaying the acquired content when it is determined that the operation state of the server device that has been waiting has been switched to operation; An information processing apparatus comprising: Information processing comprising a plurality of server devices including a main server device and at least one standby server device taking over processing from the main server device, and a client device connected to the plurality of server devices via a network A computer program for controlling a computer provided in the client device in a system,
The computer,
Monitoring means for monitoring the operating state of each of the plurality of server devices by asynchronous communication with each of the plurality of server devices;
If the monitoring unit detects that the operating state of the primary server device is in operation, it acquires content from the primary server device and displays the acquired content on the screen of the client When the monitoring unit detects that the operating state of the standby server device has been switched during operation, the standby server device has taken over from the main server device. Display control means for acquiring content related to processing from the standby server device, and displaying the acquired content;
A computer program that functions as at least a part of the program.

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